CN110360819A - Combined energy-saving fabric Drying unit - Google Patents

Abstract

The present invention relates to a kind of combined energy-saving fabric Drying units.Include: at least one drying unit, including drying mechanism and is connected to the temperature control mechanism of the drying mechanism.The temperature control mechanism includes ontology and is set to the intrinsic heat-exchanging piece, and the ontology includes air inlet and air outlet, and the air inlet is connected with external connection, the gas outlet with the drying mechanism.The heat-exchanging piece is multiple groups, and heat-exchanging piece described in multiple groups is arranged from the air inlet of the ontology to gas outlet direction interval；Heat-exchanging piece described in every group includes its unlatching of control and closed control valve.One air heat humidity device, including air inlet and material outlet, heating substance is arranged inside, the gas and oxygen mix of drying mechanism outflow burn to heat the heating substance, it is formed for entering the heat-exchanging piece, and carry out the thermally conductive source that heat exchanges with the intrinsic air.

Description

Combined energy-saving fabric Drying unit

Technical field

The present invention relates to dryer technical field more particularly to a kind of combined energy-saving fabric Drying units.

Background technique

With the development of science and technology, dryer is gradually applied to various places, shortens after people clean clothing and wait The dry time, such as apply at hotel, since the cloth grass flushing dose such as the daily sheet in hotel, towel is larger, and need to dry Space it is larger, operate more troublesome, dryer can be with flash baking cloth grass, the step of eliminating sunning, provide the user Very big convenience.

In the prior art, the air inlet of heater connection blower and dryer, the sky that heater extracts blower from outside Gas heating, then heated gas continuously enters the liner of dryer under the conveying of blower, to the cloth in liner Grass carries out drying operation, but simultaneously, and the gas in liner is continuously discharged from liner, causes the waste of the energy.

Summary of the invention

In view of this, the present invention provides combined energy-saving fabric Drying units, comprising:

At least one drying unit including drying mechanism and is connected to the temperature control mechanism of the drying mechanism, the temperature control Mechanism includes ontology and is set to the intrinsic heat-exchanging piece, and the ontology includes ontology air inlet and ontology gas outlet, The ontology air inlet is connected with external connection, the ontology gas outlet with the drying mechanism；The heat-exchanging piece is multiple groups, And heat-exchanging piece described in multiple groups is arranged from the ontology air inlet to ontology gas outlet direction interval；Heat exchange described in every group Part includes its unlatching of control and closed control valve；

One air heat humidity device, is arranged inside heating substance, and the gas flowed out through the drying mechanism and oxygen are mixed Combination burning forms to heat the heating substance and is used to enter the heat-exchanging piece, and carries out heat with the intrinsic air Measure the thermally conductive source of exchange.

Selectively, the drying mechanism includes cabinet, is provided in the cabinet through the cabinet, and can be relative to The gallbladder body of cabinet rotation, the gallbladder body include feed inlet, discharge port and can accommodate the road Bu Caocang；The Cang Dao is in it The side of wall is arranged at intervals at least two spirals and turns over muscle, each spiral turn over muscle from the feed inlet extend to it is described go out Material mouth.

Selectively, the drying mechanism further include the air door import for being opened in the cabinet upper surface, air door outlet and The cold wind blower of neighbouring feed inlet setting；Wherein, the ontology gas outlet of the air door import and the temperature control mechanism It is connected, the cold wind blower is connected with the feed inlet.

It selectively, further include air-breathing dust-extraction unit comprising air-breathing dedusting air inlet and air-breathing dedusting gas outlet, it is described Air-breathing dedusting air inlet is connected with the outlet of the air door of the drying mechanism, and air-breathing dedusting gas outlet includes first row Gas air door and second exhaust air door, the first exhaust air door are connected with the air heat humidity import of the air heat humidity device； The second exhaust air door is assembled with control valve, and the exhaust that the control valve can block or open the air-breathing dust-extraction unit is logical Road.

Selectively, the air heat humidity device includes from air heat humidity import described in its to the air heat humidity exporter It is described to the sequentially connected heat pump and heat conducting furnace for executing the heat exchanger of dehumidification function to gas, executing heating function to gas Heating substance is set in the heat conducting furnace；The gas of the drying mechanism outflow sequentially enters institute through the air-breathing dust-extraction unit State heat exchanger, the heat pump and the heat conducting furnace.

It selectively, further include the compressor for providing cold source for the heat pump to execute secondary dehumidification function to gas.

It selectively, further include collecting gas in the heat exchanger by isolated moisture, for catchmenting for washing cloth grass Device.

Selectively, the drying mechanism further includes the door for being assembled in the gallbladder body, the door be assembled in it is described go out Material mouth, the door are assembled with the cylinder of its unlatching and closure of control.

Selectively, the ontology air inlet of the temperature control mechanism is assembled with suck up outside air and enters in the ontology Filtration members are installed between the ontology air inlet of the blower in portion, the exhaust outlet of the blower and the ontology.

Selectively, the heat-exchanging piece is made of fluoroplastics.

The technical solution that the embodiment of the present invention provides can include the following benefits:

The embodiment of the invention provides a kind of combined energy-saving fabric Drying unit, drying mechanism is dried to cloth grass During, the high-temperature gas for drying cloth grass enters air heat humidity device after drying mechanism discharge and is dehumidified and added Heat, and the heating substance being set in air heat humidity device is heated with oxygen mix burning, form thermally conductive source.Thermally conductive source enters Temperature control mechanism carries out temperature regulation, finally enters drying mechanism, dries to cloth grass.It will effectively can be discharged from drying mechanism High-temperature gas afterwards is collected and recycles, energy saving.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not It can the limitation present invention.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, there is shown meets reality of the invention Example is applied, and is used to explain the principle of the present invention together with specification.

Fig. 1 is a kind of structural schematic diagram of combined energy-saving fabric Drying unit provided in an embodiment of the present invention；

Fig. 2 is the stereochemical structure of the drying unit of combined energy-saving fabric Drying unit shown in FIG. 1 in one of the states Schematic diagram；

Fig. 3 is the schematic perspective view of drying unit shown in Fig. 2 in another state；

Fig. 4 is the schematic diagram of the main view direction of the drying mechanism of drying unit shown in Fig. 2；

Fig. 5 is the sectional view of the side-looking direction of drying mechanism shown in Fig. 4.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended The example of device and method being described in detail in claims, some aspects of the invention are consistent.

It is only to be not intended to limit the invention merely for for the purpose of describing particular embodiments in terminology used in the present invention. Unless otherwise defined, the technical term or scientific term that the present invention uses, which are should be in fields of the present invention, has general skill The ordinary meaning that the personage of energy is understood.The classes such as "one" or " one " used in description of the invention and claims It does not indicate that quantity limits like word yet, but indicates that there are at least one.The similar word such as " comprising " or "comprising" means Element or object before present " comprising " or "comprising" cover the member for appearing in " comprising " or "comprising" presented hereinafter Part or object and its equivalent, it is not excluded that other elements or object.The similar word such as " connection " or " connected " is not It is defined in physics or mechanical connection, and may include electrical connection, it is either direct or indirect.At this The "an" of description of the invention and singular used in the attached claims, " described " and "the" are also intended to including more Number form formula, unless the context clearly indicates other meaning.It is also understood that term "and/or" used herein refers to simultaneously It may be combined comprising one or more associated any or all of project listed.

Fig. 1 is a kind of structural schematic diagram of combined energy-saving fabric Drying unit provided in an embodiment of the present invention.

Fig. 2 is the stereochemical structure of the drying unit of combined energy-saving fabric Drying unit shown in FIG. 1 in one of the states Schematic diagram.Fig. 3 is the schematic perspective view of drying unit shown in Fig. 2 in another state.Fig. 4 is baking shown in Fig. 2 The schematic diagram of the main view direction of the drying mechanism of equipment for drying.Fig. 5 is the sectional view of the side-looking direction of drying mechanism shown in Fig. 4.

Referring to Fig. 1 to Fig. 3, combined energy-saving fabric Drying unit provided in an embodiment of the present invention, comprising: at least one baking Equipment for drying 1 including drying mechanism 11 and is connected to the temperature control mechanism 12 of the drying mechanism 11, and temperature control mechanism 12 includes ontology 121 and the heat-exchanging piece 122 that is set in ontology 121, ontology 121 include ontology air inlet 1211 and ontology gas outlet 1212. Ontology air inlet 1211 is connected with external connection, ontology gas outlet 1212 with drying mechanism 11.Heat-exchanging piece 122 is multiple groups, and Multiple groups heat-exchanging piece 122 is arranged from the ontology air inlet 1211 of ontology 121 to 1212 direction interval of ontology gas outlet.Every group of heat is handed over Changing part 122 includes controlling it to open and closed control valve 1221.One air heat humidity device 3, including air heat humidity import 34 and air heat humidity outlet 35.Heating substance is arranged inside, gas and the oxygen mix burning that drying mechanism 11 flows out come Heat the heating substance, formed for entering heat-exchanging piece 122, and with the air in ontology 121 carry out heat exchange it is thermally conductive Source.

The embodiment of the invention provides a kind of combined energy-saving fabric Drying unit, drying mechanism 11 is dried to cloth grass In dry process, the high-temperature gas for drying cloth grass enters air heat humidity device 3 after the discharge of drying mechanism 11 and dehumidifies And heating, and the heating substance being set in air heat humidity device 3 is heated with oxygen mix burning, and form thermally conductive source, it is thermally conductive Source enters temperature control mechanism 12 and carries out temperature regulation, finally enters drying mechanism 11, dries to cloth grass.It can effectively will be from baking High-temperature gas after dry mechanism 11 is discharged is collected and recycles, energy saving.

The drying unit 1 of the embodiment of the present invention includes drying mechanism 11 and temperature control mechanism 12, referring to fig. 2 to Fig. 5, drying Mechanism 11 includes cabinet 111, is provided in cabinet 111 through cabinet 111, and the gallbladder body 112 that can be rotated relative to cabinet 111, Gallbladder body 112 is including feed inlet 1121, discharge port 1122 and can accommodate the road Bu Caocang 1123；Storehouse road 1123 is along the side of its inner wall It is arranged at intervals with two spirals and turns over muscle 113, each spiral turns over muscle 113 and extends to discharge port 1122, and two from feed inlet 1121 A spiral turns over substantially symmetrical about its central axis setting of the muscle 113 along gallbladder body 112.Certainly, the quantity that spiral turns over muscle 113 is not limited to two, can also It is four, six or eight, however it is not limited to this.

Drying mechanism 11 further includes the air door import 1111 for being opened in 111 upper surface of cabinet, air door outlet 1112 and neighbouring The cold wind blower 114 that feed inlet 1121 is arranged；Wherein, air door import 1111 is connected with the gas outlet 1212 of temperature control mechanism 12, Cold wind blower 114 is connected with feed inlet 1121, and the inside of air door import 1111 and air door outlet 1112 with gallbladder body 112 It is connected.

Gallbladder body 112 is equipped with shaft (not shown), is additionally provided with driving motor (not shown), driving motor on drying mechanism 11 It is rotationally connected with shaft, so that gallbladder body 112 be driven to rotate, it is clockwise together also with gallbladder body 112 that at least two spirals turn over muscle 113 Helical rotation.When the cloth grass that washing is completed is ready for drying, cloth grass is inserted the feed inlet of gallbladder body 112 by staff 1121, air door import 1111 and air door outlet 1112 simultaneously close off, and cold wind blower 114 starts, and continuously blows into cloth grass Storehouse road 1123.Spiral turns over muscle 113 and cloth grass is driven to rotate clockwise, to accelerate cloth grass to flow into storehouse road 1123.When cloth grass can smoothly enter into Behind storehouse road 1123, cold wind blower 114 is closed, and the door set on feed inlet 1121 and the door 1124 set on discharge port 1122 are also same When close.At this point, air door import 1111 and air door outlet 1112 are opened simultaneously, the thermally conductive source of the outflow of temperature control mechanism 12 through air door into Mouth 1111 continuously enters storehouse road 1123, then through 1112 outflow of air door outlet.Process of the thermally conductive source stream through storehouse road 1123 It is a lasting process, and dried by this process to cloth grass.

After the drying of cloth grass, air door import 1111 and air door outlet 1112 are again switched off.Feed inlet is opened simultaneously at this time 1121 and discharge port 1122 door, and open cold wind blower 114, by cold wind blower 114 by the cloth grass in storehouse road 1123 from Discharge port 1122 is blown out, and staff is collected and arranges to the cloth grass of blowout.Wherein, it is set to the door of discharge port 1122 1124 are equipped with cylinder 115, which can control its opening and closing by cylinder 115.Certainly, in other embodiments In, its opening and closing can also be controlled by the way that motor or other driving elements are arranged on door 1124, can also reach same Deng effect, however it is not limited to this.

Referring to Fig. 1, combined energy-saving fabric Drying unit provided by the invention further includes air-breathing dust-extraction unit 2 comprising Air-breathing dedusting air inlet 21 and air-breathing dedusting gas outlet 22.The air door of air-breathing dedusting air inlet 21 and drying mechanism 11 outlet 1112 It is connected, air-breathing dedusting gas outlet 22 includes first exhaust air door 221 and second exhaust air door 222.First exhaust air door 221 with The air heat humidity import 34 of air heat humidity device 3 is connected.Second exhaust air door 222 is assembled with control valve 25, the control valve 25 The exhaust passage of air-breathing dust-extraction unit 2 can be blocked or opened.

In one embodiment, air-breathing dust-extraction unit 2 may include blower 23 and the dust settling pocket 24 for being connected to blower 23, blower 23 are connected with the air door of drying mechanism 11 outlet 1112,34 phase of air heat humidity import of dust settling pocket 24 and air heat humidity device 3 Connection.

Wherein, dust settling pocket 24 can be net form bag shaped structure, which may filter that the impurity in gas.Certainly, Dust settling pocket 24 can also be active carbon dust removal device, as long as the impurity in gas can be filtered, however it is not limited to this.

During being dried to cloth grass, when the gas for drying cloth grass is discharged from air door outlet 1112, due to viscous Steam and dirt wadding on upper cloth grass, form damp and hot gas, and the gas is by 2 inspiration of air-breathing dust-extraction unit inside it, air-breathing dedusting The gas damp and hot to this of device 2 is filtered removal of impurities.Second exhaust air door 222 in the process of running, is constantly in closed State.When combined energy-saving fabric Drying unit of the invention is out of service, the air-breathing can be removed by opening controlling valve 25 Dirt wadding in the exhaust passage of dirt device is cleared up, and is prevented dirt wadding accumulation excessive and is blocked exhaust passage.

Air heat humidity device 3 is flowed into from first exhaust air door 221 by the gas after dedusting.Air heat humidity device 3 includes It is sequentially connected that 35 directions are exported from its air heat humidity import 34 to air heat humidity, and the heat exchanger of dehumidification function is executed to the gas 31, the heat pump 32 and heat conducting furnace 33 of heating function are executed to the gas.The gas that drying mechanism 11 flows out is through air-breathing dust-extraction unit 2 Sequentially enter heat exchanger 31, heat pump 32 and heat conducting furnace 33.

In one embodiment, the invention also includes collect gas in heat exchanger 31 by isolated moisture, for washing The captation (not shown) of cloth grass.It is connected inside the captation and heat exchanger 31.It is provided in heat exchanger 31 tortuous Fluorine pipe is filled in each region in heat exchanger 31, and the caliber of the fluorine pipe is very thin, as capillary.Storage in fluorine pipe There is cold water (temperature of cold water is far below gas temperature), after gas enters in heat exchanger 31, in gas and fluorine pipe Cold water carries out heat exchange, and fluorine pipe distribution in heat exchanger 31 is extensive, can effectively increase the area of heat exchange, improve heat The ability of exchange.After heat exchange, the moisture condensation of gas interior is detached from from the gas and is discharged with water pipe at liquid. And the cold water in fluorine pipe obtains energy from gas, formation temperature is higher than 40 degrees Celsius of warm water.Then the warm water is catchmented dress Collection is set, which is transferred to washing facility to wash dirty cloth grass, killed two birds with one stone by captation.

With continued reference to Fig. 1, the gas after being dehumidified flows into heat pump 32 from heat exchanger 31.Heat pump 32 utilizes inverse Carnot's principle, The gas is transferred thermal energy to, to heat to the gas, so that the temperature of gas is further increased.Meanwhile by It is not dehumidified completely in heat exchanger 31 in gas, thus after entering heat pump 32, steam is also mingled in gas.This hair Bright further includes that cold source is provided for heat pump 32 to execute the compressor (not shown) of secondary dehumidification function to the gas.Compressor connection Cold source is transferred to inside heat pump 32 by heat pump 32 by the condensation copper pipe for storing cold source.Since sink temperature is lower than gas, After thus remaining steam and condensation copper pipe contact in gas, it is condensed into liquid.At this point, compressor is by the gas after secondary dehumidifying The other end that body is transferred to heat pump is heated again, and the gas temperature after being heated again increases, and in more drying State.Meanwhile the volume of gas also expands several times, when being allowed to be again introduced into dryer, it is easier to take away new moisture content, reach fast The purpose of speed drying fabric.

Heat pump 32 uses the mode of cold and hot combination for gas heating, achieving environmental protection and energy saving, is conducive to the comprehensive utilization of the energy. And heat pump 32 is due to by the way of being driven by electricity, controllable and easy to operate, thus utility ratio is high.

Heat conducting furnace 33 is internally provided with heating substance, and after gas is dehumidified and heats in heat pump 32, entrance is thermally conductive Furnace 33.In one embodiment provided by the invention, heat conducting furnace 33 is also provided with the interface that can be input into oxygen, heat conducting furnace 33 from this Interface is input into the oxygen of 90% purity, and and gas mixing, form the oxygen-enriched air of 60% purity.By burning oxygen-enriched air come The heating substance is heated, so that the heating mass temperature increases, to form the drying gas that can dry the cloth grass in gallbladder body 112 Source.Certainly, the purity of oxygen is not limited to 90%, and the purity of oxygen-enriched air is also not necessarily limited to 60%, both can be any other pure Degree, however it is not limited to this.Also, oxygen can also with other flammable gases perhaps object replace such as hydrogen, gasoline or other Substance.

In one embodiment, heating substance can be conduction oil, and conduction oil is being heated continuously to 200 degrees centigrades When, the heat-exchanging piece 122 of temperature control mechanism 12 is flowed into from heat conducting furnace 33.In another embodiment, heating substance can also be water, water Vapor is formed after being heated continuously, vapor flows into the heat-exchanging piece 122 of temperature control mechanism 12 from heat conducting furnace 33.In other realities It applies in example, heating substance can also be the substance that other can heat up, however it is not limited to this.

In one embodiment of the invention, heat-exchanging piece 122 is five groups, is all set in the ontology 121 of temperature control mechanism 12 It is interior.And five groups of heat-exchanging pieces 122 are arranged from the ontology air inlet 1211 of ontology 121 to 1212 direction interval of ontology gas outlet, and Independently of each other.Every group of heat-exchanging piece 122 includes heat source import (not shown) and thermal source outlet corresponding with heat source import (not shown).Heat source import and with heat source import be equipped with control its open and closed control valve 1221.Every group of heat-exchanging piece 122 heat source import is connected with the air heat humidity of air heat humidity device 3 outlet 35.

The ontology air inlet 1211 of ontology 121 is also assembled with blower 123, between blower 123 and ontology air inlet 1211 also It is equipped with filter screen (not shown), which may filter that the impurity that blower 123 is pumped into 121 inner air of ontology.When five groups When the control valve 1221 of the heat source import of heat-exchanging piece 122 is opened, heating substance goes out from the air heat humidity of air heat humidity device 3 Mouth 35 enters five groups of heat-exchanging pieces 122 simultaneously.At this point, the temperature of five groups of heat-exchanging pieces 122 increases.Blower 123 starts, and extracts outer Portion's air enters ontology 121.At this point, the air and five groups of heat-exchanging pieces 122 that are located in ontology 121 contact, and carry out cold and hot friendship It changes, air themperature increases rapidly, forms drying gas source, then the drying gas source is flowed into from the ontology gas outlet 1212 of ontology 121 The air door import 1111 of drying mechanism 11, to dehumidify to the cloth grass in gallbladder body 112.

In one embodiment, when cloth grass has just enter into gallbladder body 112, five groups of heat-exchanging pieces 122 are opened simultaneously, dry gas Source is dried by cloth grass.After five minutes, two groups of heat-exchanging pieces 122 are closed, by three groups of heat-exchanging pieces 122 of unlatching and are located at this Air in body 121 exchanges heat, at this point, the drying gas source temperature formed is low than before, it can be energy saving, avoiding need not The waste wanted.After five minutes, two groups of heat-exchanging pieces 122 are again switched off, be only left one group of heat-exchanging piece 122 and are located at ontology Air in 121 exchanges heat.It may make during drying cloth grass, if always with the very high drying gas source of temperature to it It is dried, it is easy to result in waste of resources.In such a way that temperature is successively decreased step by step, it can effectively dry cloth grass and save The energy.

Those skilled in the art will readily occur to the disclosure after considering specification and practicing technical solution disclosed herein Other embodiments.The present invention is directed to cover any variations, uses, or adaptations of the disclosure, these modifications are used Way or adaptive change follow the general principles of this disclosure and including the disclosure it is undocumented in the art known in Common sense or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are under The claim in face is pointed out.

It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.

Claims (10)

1. a kind of combined energy-saving fabric Drying unit characterized by comprising

At least one drying unit including drying mechanism and is connected to the temperature control mechanism of the drying mechanism, the temperature control mechanism Including ontology and it is set to the intrinsic heat-exchanging piece, the ontology includes ontology air inlet and ontology gas outlet, described Ontology air inlet is connected with external connection, the ontology gas outlet with the drying mechanism；The heat-exchanging piece is multiple groups, and more The group heat-exchanging piece is arranged from the ontology air inlet to ontology gas outlet direction interval；Heat-exchanging piece described in every group is equal It is opened and closed control valve including controlling it；

One air heat humidity device, is arranged inside heating substance, and the gas flowed out through the drying mechanism and oxygen mix are fired It burns to heat the heating substance, is formed for entering the heat-exchanging piece, and carry out heat friendship with the intrinsic air The thermally conductive source changed.

2. combined energy-saving fabric Drying unit according to claim 1, which is characterized in that the drying mechanism includes case Body is provided with through the cabinet in the cabinet, and the gallbladder body that can be rotated relative to the cabinet, and the gallbladder body includes charging Mouthful, discharge port and the road Bu Caocang can be accommodated；The Cang Dao is arranged at intervals at least two spirals along the side of its inner wall and turns over muscle, Each spiral turns over muscle and extends to the discharge port from the feed inlet.

3. combined energy-saving fabric Drying unit according to claim 2, which is characterized in that the drying mechanism further includes It is opened in the air door import of the cabinet upper surface, the cold wind blower of air door outlet and neighbouring feed inlet setting；Wherein, institute It states air door import to be connected with the ontology gas outlet of the temperature control mechanism, the cold wind blower is connected with the feed inlet It is logical.

4. combined energy-saving fabric Drying unit according to claim 3, which is characterized in that further include air-breathing dedusting dress It sets comprising air-breathing dedusting air inlet and air-breathing dedusting gas outlet, the institute of the air-breathing dedusting air inlet and the drying mechanism It states air door outlet to be connected, air-breathing dedusting gas outlet includes first exhaust air door and second exhaust air door, the first row Gas air door is connected with the air heat humidity import of the air heat humidity device；The second exhaust air door is assembled with control valve, institute The exhaust passage of the air-breathing dust-extraction unit can be blocked or opened by stating control valve.

5. combined energy-saving fabric Drying unit according to claim 1, which is characterized in that the air heat humidity device packet It includes and gas execution dehumidification function is changed from air heat humidity import described in its to the air heat humidity export direction is sequentially connected Hot device, the heat pump and heat conducting furnace that heating function is executed to gas, the heating substance are set in the heat conducting furnace；The drying The gas of mechanism outflow sequentially enters the heat exchanger, the heat pump and the heat conducting furnace through the air-breathing dust-extraction unit.

6. combined energy-saving fabric Drying unit according to claim 5, which is characterized in that further include being mentioned for the heat pump The compressor of secondary dehumidification function is executed to gas for cold source.

7. combined energy-saving fabric Drying unit according to claim 5, which is characterized in that further include collecting gas in institute It states by isolated moisture in heat exchanger, for washing the captation of cloth grass.

8. combined energy-saving fabric Drying unit according to claim 1, which is characterized in that the drying mechanism further includes It is assembled in the door of the gallbladder body, the door is assembled in the discharge port, and the door is assembled with control, and it is opened and is closed Cylinder.

9. combined energy-saving fabric Drying unit according to claim 1, which is characterized in that the temperature control mechanism it is described Ontology air inlet is assembled with the blower that suck up outside air enters the body interior, the exhaust outlet of the blower and the ontology The ontology air inlet between filtration members are installed.

10. combined energy-saving fabric Drying unit according to claim 1, which is characterized in that the heat-exchanging piece is fluorine Plastics are made.